is there an = anywhere? ab appear to be multiplied bu what is going on with c d?
Assuming ab = cd it could be an inverse variation.
AB + C + B is not an equation: an equation requires two sets of compounds on either side of an equality sign. Furthermore, it cannot be any of the following types of reactions because there is nothing following.
a/b = c/d is one possible form.
A linear equation in standard form will be Ax + By = C or in some books Ax + By + C = 0 where A, B, and C are real numbers such as 3x + 3y = 18
Quadratic equations are called quadratic because quadratus is Latin for ''square'';in the leading term the variable is squared. also...it is form of ax^2+bx+c=0
The general equation is y = mx + c. m is the slope of the straight line. c is the y intercept. This is readily obtained by putting x = 0 then the general equation simplifies to y = c.
.Ab + c cb + a
If a, b, c and d are all non-zero then ab = CD if and only if a/c = d/b or (equivalently) a/d = b/c
.Ab + c cb + a
The general equation for a double displacement reaction is: AB + CD → AD + CB, where two compounds switch partners to form two new compounds.
Ab+c->ac+b
A mixed number of the form AB/C, as an improper fraction, is equal to (AC + B)/CA mixed number of the form AB/C, as an improper fraction, is equal to (AC + B)/CA mixed number of the form AB/C, as an improper fraction, is equal to (AC + B)/CA mixed number of the form AB/C, as an improper fraction, is equal to (AC + B)/C
The equation contains variables which are only raised to the first power.
The equation ax2 + bx + c = 0, where a != 0 is called quadratic.
AB + C + B is not an equation: an equation requires two sets of compounds on either side of an equality sign. Furthermore, it cannot be any of the following types of reactions because there is nothing following.
The standard form of an equation is Ax + By = C. In this type of equation, x and y are variables while A, B, and C are integers.
It is a straight line equation in the form of y = mx+c whereas m is the slope and c is the y intercept
C Eb Eb C C Bb Bb Bb Ab Ab Ab Bb Bb Ab Ab Ab Ab Ab Bb C C C Eb Eb C C Bb Bb Bb Ab Ab Ab Ab Bb Bb Ab Ab -Ab Ab Bb Ab Ab C---------------- Bb Db--------- C Eb------------- Db F--------------- G Ab-------------- Eb Bb------------- Ab Ab C---- Ab Ab F---------------- Eb Db C Bb Bb-------------- Ab C------------- Eb Db C Bb Bb----------- Ab F Eb Db C Bb Bb-- Bb-- Bb-- Eb Eb Eb Db C-- C-- Bb Ab Its in 4/4 Hope it helps